KR20030008578A - Apparatus for diagnosticating a power source in car - Google Patents

Abstract

PURPOSE: A device for diagnosing the trouble of a power supply of a vehicle is provided to safely travel a vehicle by preventing the malfunctioning of every machinery and tools. CONSTITUTION: A device for diagnosing the trouble of a power supply of a vehicle comprises a regulator(10), a voltage distributing circuit(20), a filter circuit(30), a switching circuit(40), and a central processing unit(50). If an external voltage of zero is outputted from a Q2 terminal of the regulator due to an external trouble, the zero voltage is maintained to protect the regulator. Thereafter, a low voltage is applied to a DIS terminal of the regulator by using the central processing unit. Then, an external output voltage for operating an external device is outputted from the Q2 terminal of the regulator.

Description

Power failure diagnosis device for vehicle {APPARATUS FOR DIAGNOSTICATING A POWER SOURCE IN CAR}

The present invention relates to an apparatus for diagnosing a power failure of a vehicle, and more particularly, to an apparatus for enabling a normal power supply to an external device by detecting a failure of a regulator that supplies power in advance in an electronic control apparatus of a vehicle. It is about.

Typically, an electronic control apparatus of a vehicle includes a regulator that receives power from a battery and supplies driving power to electronic components and external components inside the control.

That is, the regulator receives a vehicle battery power supply (eg, 12V) and supplies it to a driving voltage (eg, 5V) capable of operating various sensors and the central processing unit through a voltage distribution circuit.

As described above, when the regulator generates an abnormal power supply due to a problem such as a short circuit of external components and wiring while supplying a driving voltage, there is a problem that various devices are abnormally operated due to a considerable influence on the internal components and external devices. have.

Accordingly, the present invention has been made to solve the above-described problems, the object of which is to detect the failure of the regulator (operator) for operating the external device in advance to always supply the power provided from the regulator to always supply the external An object of the present invention is to provide a device for diagnosing a power failure of a vehicle to allow a device to operate normally.

In the present invention for achieving the above object, the power failure diagnosis apparatus for a vehicle is provided with a low state when the external output voltage is 0V while providing a high state voltage which is provided with an external output voltage and voltage-divided by an arbitrary voltage. A voltage distribution circuit converting and providing a voltage; A filter circuit that receives an output voltage while monitoring the external output voltage and divides the voltage into an arbitrary voltage to provide an output voltage, when the external output voltage is 0 V, the filter circuit converts the voltage into a low state voltage; When the voltage is supplied from the battery in the vehicle, the external output voltage is provided through the Q2 terminal, and when the high state voltage is provided from the voltage distribution circuit, the high voltage is provided through the SQ terminal and correspondingly, the DIS The terminal receives the low voltage through the terminal and controls to continuously output the high voltage through the Q2 terminal. When the low voltage is supplied from the voltage divider circuit, the low voltage is supplied through the SQ terminal. A regulator configured to provide a voltage and receive a high state voltage through the DIS terminal and to maintain a low state through the Q2 terminal accordingly; A switching circuit for switching to correspond to the state voltage of the SQ terminal of the regulator to provide a switching state to the DIS terminal of the regulator; And a central processing unit that receives a voltage divided by the filter circuit and operates when the low voltage is provided from the filter circuit, and applies the low voltage to the DIS terminal of the regulator through the switching circuit. It is done.

1 is a view showing a power failure diagnosis apparatus for a vehicle according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: regulator 20: voltage distribution circuit

30: filter circuit 40: switching circuit

50: central processing unit

S1: Emergency Lamp

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment according to the present invention.

Referring to FIG. 1, a diagram illustrating a power failure diagnosis apparatus for a vehicle according to the present invention includes a regulator 10, a voltage distribution circuit 20, a filter circuit 30, a switching circuit 40, And a central processing unit 50.

The regulator 10 receives a voltage (eg, 12V) from an in-vehicle battery (not shown) through an INPUT terminal and provides an external output voltage through the Q2 terminal to drive an external device. In this case, when the high voltage is provided from the voltage distribution circuit 20, the regulator 10 provides the high voltage to the switching circuit 40 through the SQ terminal and correspondingly to the switching circuit 40. After receiving the low voltage through the DIS terminal from), the high voltage is continuously output through the Q2 terminal to control the external device to be driven.

In addition, when the regulator 10 is provided with a low state voltage from the voltage distribution circuit 20, the regulator 10 provides the low state voltage to the switching circuit 40 through the SQ terminal and correspondingly to the DIS from the switching circuit 40. The terminal is supplied with a high state voltage and controlled to remain low to protect the regulator through the Q2 terminal.

The voltage dividing circuit 20 receives an external output voltage output through the Q2 terminal of the regulator 10 and provides a high state voltage obtained by dividing the voltage by an arbitrary voltage to the SI terminal of the regulator 10. During the provision as described above, when the external output voltage output through the Q2 terminal of the regulator 10 is 0V, the voltage of the high state is converted to the voltage of the low state and provided to the SI terminal of the regulator 10.

The filter circuit 30 receives an external output voltage and divides the voltage by an arbitrary voltage while monitoring the external output voltage output through the Q2 terminal of the regulator 10 to provide the central processing unit 50. During the provision as described above, when the external output voltage output through the Q2 terminal of the regulator 10 is 0V, the high voltage is converted into a low voltage to be provided to the CPU 50.

The switching circuit 40 is a circuit having a switching transistor internally. The switching transistor is turned on in response to a high state voltage input from the SQ terminal of the regulator 10 and the regulator 10 is turned on through the collector of the transistor. Switch to provide a low voltage to the DIS terminal. In addition, the switching circuit 40 turns the switching transistor off according to the low voltage input from the SQ terminal of the regulator 10, and the switching circuit 40 has a high state at the DIS terminal of the regulator 10 through the collector of the transistor. Switch to provide voltage.

The CPU 50 operates by receiving a voltage divided by the filter circuit 30, and when the low voltage is supplied from the filter circuit 30, the regulator 10 is supplied through the switching circuit 40. A low voltage is applied to the DIS terminal of the controller 10 so that the external output voltage is output from the Q2 terminal of the regulator 10. Also, when the low voltage is provided from the filter circuit 30, the regulator 10 abnormal power supply. The emergency lamp (S1) is controlled to turn on to determine the supply and notify the user of an external obstacle.

Based on the above-described configuration, a power failure diagnosis apparatus for a vehicle according to the present invention will be described in detail.

First, when the regulator 10 operates normally, an external output voltage is supplied through a Q2 terminal to receive a voltage (eg, 12V) from an in-vehicle battery (not shown) through an INPUT terminal to drive an external device. To provide.

At this time, the voltage dividing circuit 20 receives an external output voltage output through the Q2 terminal of the regulator 10 and provides a high voltage to the SI terminal of the regulator 10 in which the voltage is divided by an arbitrary voltage.

Then, the regulator 10 provides the high voltage to the switching circuit 40 through the SQ terminal when the high voltage is supplied from the voltage distribution circuit 20.

The switching circuit 40 turns the switching transistor on according to the high voltage input from the SQ terminal of the regulator 10 and applies a low voltage to the DIS terminal of the regulator 10 through the collector of the transistor. Switch to provide.

The regulator 10 receives the low voltage from the switching circuit 40 through the DIS terminal, and then continuously outputs the high voltage through the Q2 terminal so that the external device can be driven.

On the other hand, when the regulator 10 operates abnormally due to an external disturbance, the regulator 10 is provided with a voltage (eg, 12V) from an in-vehicle battery (not shown) through the INPUT terminal. An external output voltage of 0V is provided through the Q2 terminal.

The voltage distribution circuit 20 converts a high state voltage into a low state voltage as an external output voltage of 0 V is provided at the Q2 terminal of the regulator 10 and provides it to the SI terminal of the regulator 10.

The regulator 10 provides a low voltage to the switching circuit 40 through the SQ terminal when the low voltage is supplied from the voltage distribution circuit 20.

The switching circuit 40 turns the switching transistor off in response to the low voltage input from the SQ terminal of the regulator 10 and applies a high voltage to the DIS terminal of the regulator 10 through the collector of the transistor. Switch to provide.

The regulator 10 receives a high voltage from the switching circuit 40 through the DIS terminal and controls the regulator 10 to maintain a low state to protect the regulator 10 through the Q2 terminal.

As described above, while the regulator 10 is protected, the central processing unit 50 is controlled to operate the external device by operating the regulator 10 again.

That is, the central processing unit 50, which is operated by receiving an arbitrary voltage divided by the filter circuit 30, is provided with a low voltage from the filter circuit 30, and receives a regulator through the switching circuit 40. A low voltage is applied to the DIS terminal of 10) to control the external output voltage to be output from the Q2 terminal of the regulator 10.

In addition, when the low voltage is supplied from the filter circuit 30, the CPU 50 may determine that the regulator 10 is abnormally supplied with power, and the emergency lamp S1 may notify the user of an external trouble. Control so that lights up.

Therefore, if an external output voltage of 0 V is output from the Q2 terminal of the regulator 10 due to an external disturbance while the regulator 10 is operating normally, the external output voltage of 0 V is continuously applied to protect the regulator 10. In order to operate the external device by operating the regulator 10 again, a low voltage is applied to the DIS terminal of the regulator 10 using the central processing unit 50 to externally at the Q2 terminal of the regulator 10. Allow output voltage to be output.

As described above, the present invention prevents a problem in which various devices operate abnormally by detecting a failure of a regulator for operating an external device in advance and supplying power provided from the regulator normally at all times. By using a vehicle equipped with a variety of devices there is an effect that can be safely driven.

Claims (3)

In the vehicle power failure diagnosis device, A voltage distribution circuit configured to receive an external output voltage and provide a voltage in a high state in which voltage is divided by an arbitrary voltage, and convert the voltage into a low state when the external output voltage is 0V; A filter circuit which receives the output voltage while monitoring an external output voltage and divides the voltage into an arbitrary voltage to provide a voltage, and when the external output voltage is 0 V, converts to a low voltage; When the voltage is supplied from the battery in the vehicle, an external output voltage is provided through the Q2 terminal, and when a high state voltage is provided from the voltage distribution circuit, a high state voltage is provided through the SQ terminal. Receives a low voltage through the DIS terminal and continuously outputs a high voltage through the Q2 terminal, and when a low voltage is provided from the voltage distribution circuit, A regulator providing a low voltage and correspondingly receiving a high voltage through the DIS terminal to maintain a low voltage through the Q2 terminal; A switching circuit for switching to correspond to the state voltage of the SQ terminal of the regulator to provide a switching state to the DIS terminal of the regulator; And a central processing unit configured to receive an arbitrary voltage divided by the filter circuit and to apply a low voltage to the DIS terminal of the regulator through the switching circuit when the low voltage is provided from the filter circuit. Power failure diagnosis apparatus for a vehicle, characterized in that. The method of claim 1, wherein the switching circuit, And a switching transistor, wherein the switching transistor is turned on according to a high state voltage input from the SQ terminal of the regulator and switches to provide a low state voltage to the DIS terminal of the regulator through a collector. The switching transistor is turned off according to a low voltage input from an SQ terminal of the regulator and switches to provide a high voltage to the DIS terminal of the regulator through a collector; Fault Diagnosis Device. The method of claim 1, wherein the central processing unit, When the voltage of the low state is provided from the filter circuit, it is determined that the abnormal power supply from the regulator to control the emergency lamp is turned on, characterized in that for controlling the vehicle power failure.